A coupled high-accuracy phase-field fluid–structure interaction framework for Stokes fluid-filled fracture surrounded by an elastic medium

IF 1.4 Q2 MATHEMATICS, APPLIED Results in Applied Mathematics Pub Date : 2024-04-13 DOI:10.1016/j.rinam.2024.100455
Henry von Wahl , Thomas Wick
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Abstract

In this work, we couple a high-accuracy phase-field fracture reconstruction approach iteratively to fluid–structure interaction. The key motivation is to utilise phase-field modelling to compute the fracture path. A mesh reconstruction allows a switch from interface-capturing to interface-tracking in which the coupling conditions can be realised in a highly accurate fashion. Consequently, inside the fracture, a Stokes flow can be modelled that is coupled to the surrounding elastic medium. A fully coupled approach is obtained by iterating between the phase-field and the fluid–structure interaction model. The resulting algorithm is demonstrated for several numerical examples of quasi-static brittle fractures. We consider both stationary and quasi-stationary problems. In the latter, the dynamics arise through an incrementally increasing given pressure.

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弹性介质包围斯托克斯流体填充断裂的高精度相场流固耦合框架
在这项工作中,我们将高精度相场断裂重建方法与流体-结构相互作用迭代相结合。主要动机是利用相场建模来计算断裂路径。通过网格重建,可以从界面捕捉转换到界面跟踪,从而以高精度的方式实现耦合条件。因此,在断裂内部,可以模拟与周围弹性介质耦合的斯托克斯流。通过在相场和流固耦合模型之间进行迭代,可以获得完全耦合的方法。在几个准静态脆性裂缝的数值示例中演示了由此产生的算法。我们考虑了静态和准静态问题。在准静态问题中,动态是通过逐渐增加的给定压力产生的。
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来源期刊
Results in Applied Mathematics
Results in Applied Mathematics Mathematics-Applied Mathematics
CiteScore
3.20
自引率
10.00%
发文量
50
审稿时长
23 days
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